Enantiomers, liquid chromatographic preparative-scale separation

The chromatographic methods use gas or liquid separately as the mobile phase, hence the terms gas chromatography (GC) and liquid chromatography (LC). Gas chromatography could not be accepted as the method of choice for the chiral resolution of racemic compounds mainly because of its requirement for the conversion by derivatization of the racemic compound into a volatile species. Besides, the separated enantiomers cannot be collected for further pharmacological and other studies. Moreover, GC cannot be used at the preparative scale. 

Champion, Jr. W.L. Lee, J. Garrison, A.W. DiMarco, J.C. Matabe, A. Prickett, K.B., Liquid chromatographic separation of the enantiomers of tra i-chlordane, cA-chlordane, heptachlor, heptachlor epoxide and a-hexachlorocyclohexane with application to small-scale preparative separation J. Chromatogr. A 1024, 2004, 55-62. 

HPLC separations are one of the most important fields in the preparative resolution of enantiomers. The instrumentation improvements and the increasing choice of commercially available chiral stationary phases (CSPs) are some of the main reasons for the present significance of chromatographic resolutions at large-scale by HPLC. Proof of this interest can be seen in several reviews, and many chapters have in the past few years dealt with preparative applications of HPLC in the resolution of chiral compounds [19-23]. However, liquid chromatography has the attribute of being a batch technique and therefore is not totally convenient for production-scale, where continuous techniques are preferred by far. 

The chromatographic separation of enantiomers, often referred to as enantioseparation, has received a great deal of attention in recent years. Both liquid (LC) and gas (GC) chromatographic procedures are used. The former is extremely useful for enantioseparations because of the available variations in scale, mechanism, and technique. It has been used in enantioseparations from analytical to preparative in scale, taking advantage of various modes of diastereoisomeric interactions andusing elution and displacement techniques. All the chromatographic methods involve diastereoisomeric interactions between the enantiomers of interest and... 

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